package runtime

// This file implements the TinyGo scheduler. This scheduler is a very simple
// cooperative round robin scheduler, with a runqueue that contains a linked
// list of goroutines (tasks) that should be run next, in order of when they
// were added to the queue (first-in, first-out). It also contains a sleep queue
// with sleeping goroutines in order of when they should be re-activated.
//
// The scheduler is used both for the coroutine based scheduler and for the task
// based scheduler (see compiler/goroutine-lowering.go for a description). In
// both cases, the 'task' type is used to represent one goroutine. In the case
// of the task based scheduler, it literally is the goroutine itself: a pointer
// to the bottom of the stack where some important fields are kept. In the case
// of the coroutine-based scheduler, it is the coroutine pointer (a *i8 in
// LLVM).

import (
	"internal/task"
)

const schedulerDebug = false

// Queues used by the scheduler.
var (
	runqueue           task.Queue
	sleepQueue         *task.Task
	sleepQueueBaseTime timeUnit
)

// Simple logging, for debugging.
func scheduleLog(msg string) {
	if schedulerDebug {
		println("---", msg)
	}
}

// Simple logging with a task pointer, for debugging.
func scheduleLogTask(msg string, t *task.Task) {
	if schedulerDebug {
		println("---", msg, t)
	}
}

// Simple logging with a channel and task pointer.
func scheduleLogChan(msg string, ch *channel, t *task.Task) {
	if schedulerDebug {
		println("---", msg, ch, t)
	}
}

// deadlock is called when a goroutine cannot proceed any more, but is in theory
// not exited (so deferred calls won't run). This can happen for example in code
// like this, that blocks forever:
//
//     select{}
//go:noinline
func deadlock() {
	// call yield without requesting a wakeup
	task.Pause()
	panic("unreachable")
}

// Goexit terminates the currently running goroutine. No other goroutines are affected.
//
// Unlike the main Go implementation, no deffered calls will be run.
//go:inline
func Goexit() {
	// its really just a deadlock
	deadlock()
}

// Add this task to the end of the run queue.
func runqueuePushBack(t *task.Task) {
	runqueue.Push(t)
}

// Add this task to the sleep queue, assuming its state is set to sleeping.
func addSleepTask(t *task.Task, duration int64) {
	if schedulerDebug {
		println("  set sleep:", t, uint(duration/tickMicros))
		if t.Next != nil {
			panic("runtime: addSleepTask: expected next task to be nil")
		}
	}
	t.Data = uint(duration / tickMicros) // TODO: longer durations
	now := ticks()
	if sleepQueue == nil {
		scheduleLog("  -> sleep new queue")

		// set new base time
		sleepQueueBaseTime = now
	}

	// Add to sleep queue.
	q := &sleepQueue
	for ; *q != nil; q = &(*q).Next {
		if t.Data < (*q).Data {
			// this will finish earlier than the next - insert here
			break
		} else {
			// this will finish later - adjust delay
			t.Data -= (*q).Data
		}
	}
	if *q != nil {
		// cut delay time between this sleep task and the next
		(*q).Data -= t.Data
	}
	t.Next = *q
	*q = t
}

// Run the scheduler until all tasks have finished.
func scheduler() {
	// Main scheduler loop.
	var now timeUnit
	for {
		scheduleLog("")
		scheduleLog("  schedule")
		if sleepQueue != nil {
			now = ticks()
		}

		// Add tasks that are done sleeping to the end of the runqueue so they
		// will be executed soon.
		if sleepQueue != nil && now-sleepQueueBaseTime >= timeUnit(sleepQueue.Data) {
			t := sleepQueue
			scheduleLogTask("  awake:", t)
			sleepQueueBaseTime += timeUnit(t.Data)
			sleepQueue = t.Next
			t.Next = nil
			runqueue.Push(t)
		}

		t := runqueue.Pop()
		if t == nil {
			if sleepQueue == nil {
				// No more tasks to execute.
				// It would be nice if we could detect deadlocks here, because
				// there might still be functions waiting on each other in a
				// deadlock.
				scheduleLog("  no tasks left!")
				return
			}
			timeLeft := timeUnit(sleepQueue.Data) - (now - sleepQueueBaseTime)
			if schedulerDebug {
				println("  sleeping...", sleepQueue, uint(timeLeft))
				for t := sleepQueue; t != nil; t = t.Next {
					println("    task sleeping:", t, timeUnit(t.Data))
				}
			}
			sleepTicks(timeLeft)
			if asyncScheduler {
				// The sleepTicks function above only sets a timeout at which
				// point the scheduler will be called again. It does not really
				// sleep.
				break
			}
			continue
		}

		// Run the given task.
		scheduleLogTask("  run:", t)
		t.Resume()
	}
}

func Gosched() {
	runqueue.Push(task.Current())
	task.Pause()
}
